| 1 |
Static and Dynamic Intensification of Water-Ethylene Glycol Separation Using a Dividing Wall Column
Yan LQ, Witt PM, Edgar TF, Baldea M
Industrial & Engineering Chemistry Research, 60(7), 3027, 2021 |
| 2 |
Product Value Modeling for a Natural Gas Liquid to Liquid Transportation Fuel Process
Ganesh HS, Dean DP, Vernuccio S, Edgar TF, Baldea M, Broadbelt LJ, Stadtherr MA, Allen DT
Industrial & Engineering Chemistry Research, 59(7), 3109, 2020 |
| 3 |
Stochastic Scheduling and Control Using Data-Driven Nonlinear Dynamic Models: Application to Demand Response Operation of a Chlor-Alkali Plant
Simkoff JM, Baldea M
Industrial & Engineering Chemistry Research, 59(21), 10031, 2020 |
| 4 |
The integration of scheduling and control: Top-down vs. bottom-up
Caspari A, Tsay C, Mhamdi A, Baldea M, Mitsos A
Journal of Process Control, 91, 50, 2020 |
| 5 |
An empirical study of moving horizon closed-loop demand response scheduling
Kelley MT, Baldick R, Baldea M
Journal of Process Control, 92, 137, 2020 |
| 6 |
Dynamic process intensification of binary distillation based on output multiplicity
Yan LQ, Edgar TF, Baldea M
AIChE Journal, 65(4), 1162, 2019 |
| 7 |
Demand response-oriented dynamic modeling and operational optimization of membrane-based chlor-alkali plants
Otashu JI, Baldea M
Computers & Chemical Engineering, 121, 396, 2019 |
| 8 |
Optimal demand response scheduling of an industrial air separation unit using data-driven dynamic models
Tsay C, Kumar A, Flores-Cerrillo J, Baldea M
Computers & Chemical Engineering, 126, 22, 2019 |
| 9 |
Production scheduling and linear MPC: Complete integration via complementarity conditions
Simkoff JM, Baldea M
Computers & Chemical Engineering, 125, 287, 2019 |
| 10 |
A model-based dynamic optimization strategy for control of indoor air pollutants
Ganesh HS, Fritz HE, Edgar TF, Novoselac A, Baldea M
Energy and Buildings, 195, 168, 2019 |
